Study Theophylline

Case study theophylline anhydrate and monohydrate The type of structural information that can be obtained from the study of the x-ray diffraction of single crystals will be illustrated through an exposition of studies conducted on the anhydrate and hydrate phases of theophylline (3,7-dihydro-l,3-dimethyl-LH-purine-2,6-dione). The unit cell parameters defining the two phases are fisted in Table 7.2, while the structure of this compound and a suitable atomic numbering system is located in Fig. 7.3. 

Initially, it was beheved that the abiUty of xanthines phosphodiesterase (PDF) led to bronchodilation (Fig. 2). One significant flaw in this proposal is that the concentration of theophylline needed to significantly inhibit PDE in vitro is higher than the therapeutically useful semm values (72). It is possible that concentration of theophylline in airways smooth muscle occurs, but there is no support for this idea from tissue distribution studies. Furthermore, other potent PDE inhibitors such as dipyridamole [58-32-2] are not bronchodilators (73). EinaHy, although clinical studies have shown that neither po nor continuous iv theophylline has a direct effect on circulating cycHc AMP levels (74,75), one study has shown that iv theophylline significant potentiates the increase in cycHc AMP levels induced by isoproterenol (74). 

Jubran A, Gross N, Ramsdell J, et al. Comparative cost-effectiveness analysis of theophylline and ipratropium bromide in chronic obstructive pulmonary disease. A three-center study. Chest 1993 103 678-84. 

In a series of papers, personnel from Novartis and the University of Basel in Switzerland have highlighted the pros and cons of neural networks for immediate release tablets [37-40]. In other studies neural networks have been found useful in modeling tablet formulations of antacids [41], plant extracts [42], theophylline [43], and diltiazem [44]. In a recent paper Lindberg and Colbourn [45] have used neural networks, genetic algorithms, and neurofuzzy to successfully analyze historical data from three different immediate-release tablet formulations. 

Other Formulations. Neural networks have been applied to the modeling of pellet formulations to control the release of theophylline [63] and to control the rate of degradation of omeprazole [64]. They have also been applied to the preparation of acrylic microspheres [65] and to model the release of insulin from an implant [66]. In arecent study from Brazil, the release of hydrocortisone from a biodegradable matrix has been successfully modeled [67]. 

A number of studies have shown that adenosine inhibits neuronal firing both in vitro and in vivo and is itself released during intense neuronal activity. It can protect against PTZ seizures in rodents while the antagonist theophylline is proconvulsant. No clear picture of its role in human epilepsy has emerged. 

Only a small number of drug interactions have been reported with donepezil. In vitro studies show a low rate of binding of donepezil to cytochrome P-450 (CYP)3A4 or 2D6. Whether or not donepezil has the potential for enzyme induction is not known. No interactions with theophylline, cimeti-dine, warfarin, digoxin, or ketoconazole have been documented. In vitro studies show that inhibitors of CYP3A4 and 2D6 have the potential to inhibit the metabolism of donepezil. The clinical relevance of this is unknown. However, monitoring for possible increased peripheral side effects is advised... 

Several studies have investigated the biosynthesis of caffeine in tea. The results of a study by Suzuki and Takahashi27 30 suggest a pathway for caffeine biosynthesis in tea from 7-methylxanthine to theobromine and then to caffeine. Additionally they suggest that theophylline is synthesized from 1-methylxanthine. Another study by Ogutuga and Northcote31 proposes a pathway through 7-methylxanthosine to theobromine followed by caffeine. 

HPLC allows a quantitative determination with relatively simple extractions. In many cases, extraction only involves a heating of the commodity with water, followed by filtration and injection onto an HPLC column. In the determination of caffeine, theobromine, and theophylline in cocoa, coffee, or tea, as well as in other foods, there is scarcely a month that passes without a new paper on this assay. Kreiser and Martin provide typical conditions for analysis.28 In their studies, samples were extracted in boiling water and filtered prior to injection onto the HPLC column. The HPLC conditions used a Bondapak reversed phase column and a mobile phase of water methanol acetic acid (74 25 1) with detection at 280 nm. This method is accurate, precise, and conserves time. It has also been adopted by the AOAC as an official method for the determination of theobromine and caffeine in cocoa beans and chocolate products.29... 

The determination of theophylline in plasma can also be accomplished by various immunoassay techniques.66-67 Theophylline was also determined by a polarization fluoroimmunoassays but found to have a caffeine interference.88. In a more research oriented application, the interaction of caffeine with L-tryptophan was studied using h NMR with the results indicating that caffeine interacted with tryptophan in a 1 1 molar ratio through parallel stacking.69... 

Oellerich, M., Klupmann, W.R., Beneking, M., Sybrecht, G.W., Staib, A.H., and Schuster, R., Determination of theophylline in serum by nonisotopic immunoassays (EMIT, SLFIA, NIIA) and HPLC-CA comparative study, Fresenius Z. Anal. Chem., 311,355,1982. 

This paper concerns the synthesis and characterization of amphiphilic networks comprising PHEMA and PIB segments. Sustained release studies with theophylline-loaded networks are also described. 

Accelerated aging and crystal transformation rates have also been traced to high residual moisture content. Ando et al. studied the effect of moisture content on the crystallization of anhydrous theophylline in tablets [9]. Their results also indicate that anhydrous materials convert to hydrates at high levels of relative humidity. In addition, if hygroscopic materials (e.g., polyethylene glycol 6000) are also contained in the formulation, needle-like crystals form at the tablet surface and significantly reduce the release rate of the theophylline. 

In the case of the methylated xanthines, particularly theophylline, theobromine and caffeine, the preponderance of data on the metabolism of these compounds in man suggests that a methylated uric acid is the principal product. However, the data presented earlier proposes at best a 77 per cent accounting of the methylated xanthine administered. The question can be raised as to whether the final products observed upon electrochemical oxidation of these compounds aids these studies. Very recently studies of metabolism of caffeine have revealed that 3,6,8-trimethylallantoin is a metabolite of caffeine 48>. This methylated allantoin is, of course, a major product observed electrochemically. The mechanism developed for the electrochemical oxidation seems to nicely rationalize the observed products and electrochemical behavior. The mechanism of biological oxidation could well be very similar, although insufficient work has yet been performed to come to any definite conclusions. There is however, one major difference between the electrochemical and biological reactions which is concerned with the fact that in the former situation no demethylation occurs whereas in the latter systems considerable demethylation appears to take place. 

Since it was known that theophylline monohydrate can be thermally dehydrated to form either the stable Form I or the metastable Form I, the effect of different drying methods on the phase composition was studied [89], Using either a multichamber microscale fluid bed dryer or the hot stage of a variable-temperature XRPD diffractometer, Form I was produced when the drying was conducted at 40-50°C. Drying at 60°C in the VT-XRPD unit yielded only Form I, while mixtures of products were produced in the microscale fluid bed dryer even at temperatures as high as 90 °C. 

Although there are data on the variability of the treatment response for each of these classes of agents, there are no systematic studies on the reasons for variance in the treatment response to steroids or theophylline. Therefore, this chapter will focus on the specific pharmacogenomics of /1-agonists and inhibitors of the cysteinyl-leukotriene pathway [18, 30] and on general considerations related to pharmacogenomic mechanisms. 

The FT-Raman spectra of a range of drugs (theophylline, indomethacin, diclofenac, and promethazine) in several polymers (sodium alginate, hydroxy-propylmethylcellulose, and polyethylene glycol) have been obtained [56,57]. In these studies, the linearity of response of Raman scattering to species concentration was exploited to analyze diclofenac at concentrations of 0.01-6.0% w/w... 

X-ray powder diffractometry can be used to study solid state reactions, provided the powder pattern of the reactant is different from that of the reaction product. The anhydrous and hydrated states of many pharmaceutical compounds exhibit pronounced differences in their powder x-ray diffraction patterns. Such differences were demonstrated earlier in the case of fluprednisolone and carbamazepine. Based on such differences, the dehydration kinetics of theophylline monohydrate (CvHgN H20) and ampicillin trihydrate (Ci6H19N304S 3H2O) were studied [66]. On heating, theophylline monohydrate dehydrated to a crystalline anhydrous phase, while the ampicillin trihydrate formed an amorphous anhydrate. In case of theophylline, simultaneous quantification of both the monohydrate and the anhydrate was possible. It was concluded that the initial rate of this reaction was zero order. By carrying out the reaction at several... 

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